CN212374168U - Wide material feeding mechanism - Google Patents
Wide material feeding mechanism Download PDFInfo
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- CN212374168U CN212374168U CN202020538021.XU CN202020538021U CN212374168U CN 212374168 U CN212374168 U CN 212374168U CN 202020538021 U CN202020538021 U CN 202020538021U CN 212374168 U CN212374168 U CN 212374168U
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Abstract
The utility model discloses a wide type material feeding mechanism. The mechanism comprises a guide assembly and a conveying assembly which are arranged in front and at back, wherein the guide assembly comprises a plurality of unpowered rollers which are arranged in sequence, and the conveying assembly comprises a plurality of unpowered rubber-coated rollers which are arranged in sequence; the conveying assembly is also provided with a material clamping assembly capable of moving back and forth along the material conveying direction. The utility model discloses simple structure, occupation space is little, and is with low costs, can be used for the conveying of wide type material to can not harm the material spare.
Description
Technical Field
The utility model relates to a conveying technical field, in particular to wide type material feeding mechanism.
Background
In daily production activities, a large amount of materials need to be conveyed, and in order to reduce labor intensity and improve labor productivity, different conveying equipment is often required to finish the conveying of the materials, so that the mechanization and automation of the production activities are promoted.
At present, in the fields of stamping technology, 3C assembly technology, photovoltaic technology and the like, a motor is mostly adopted to drive a material coiling device to convey stamping raw materials or semi-finished products, or a conveying belt-like mechanism is adopted to convey materials. The belt type conveying technology is suitable for common raw materials and places with low requirements on the materials, and when the belt type conveying technology is used for conveying wider materials, slipping easily occurs to scratch products, so that the products are unqualified. In addition, the traditional belt conveyor occupies a large space, is high in cost and is limited in practical production application.
SUMMERY OF THE UTILITY MODEL
The utility model provides a wide type material feeding mechanism can solve one or several kinds among the above-mentioned prior art problem.
According to one aspect of the utility model, a wide material feeding mechanism is provided, which comprises a guide component and a conveying component which are arranged in front and back; the guide assembly comprises a plurality of unpowered rollers which are arranged in sequence; the conveying assembly comprises a plurality of unpowered rubber-coated rollers which are arranged in sequence; the conveying component is also provided with a material clamping component; the material clamping assembly can move back and forth along the material conveying direction.
The beneficial effects of the utility model are that, the direction subassembly is at the initiating terminal of material conveying, and the guide material gets into conveying assembly according to predetermineeing the direction, and it is smooth and easy to guarantee that the material conveying plays certain guard action. The unpowered roller is adopted for conveying the material, the power requirement is low, and the cost can be saved. The material clamping assembly can be matched with various material parts, and can avoid damage of the material parts and prevent the material from slipping and falling off in the conveying process of wide material parts or other material parts with special shapes. The feeding mechanism is simple in structure, low in cost, small in occupied space, high in applicability and free of damage to materials, and can be used for conveying wide materials.
In some embodiments, the clamping assembly comprises a movable anti-slip clamp and a first cylinder, wherein the anti-slip clamp is arranged at the tail end of the unpowered rubber-coated roller; the anti-slip clamp is connected with the first cylinder, and the first cylinder can move along the material conveying direction. The rubber coating roller has the beneficial effects that the material clamping assembly clamps materials at the tail end of the rubber coating roller, damages the materials, plays a certain fixing role, can prevent the materials from slipping, and avoids the materials from being scratched in the conveying process. The first air cylinder can drive the material clamping assembly to move along the material conveying direction, and the jacking distance of the air cylinder is fixed, so that the fixed-distance feeding can be realized through the matching of the first air cylinder and the material clamping assembly.
In some embodiments, the anti-slip clamp comprises a first clamp head and a second clamp head which are arranged up and down; the first chuck is connected with the second cylinder, and the first chuck can move up and down along with the second cylinder. The anti-slip clamp has the beneficial effects that the anti-slip clamp is driven to be opened and closed through the operation of the second cylinder, so that the materials are conveniently clamped.
In some embodiments, the anti-slip clips are multiple, and the multiple anti-slip clips are symmetrically arranged along the feeding direction. The anti-slip clamp has the beneficial effects that the anti-slip clamp is symmetrically arranged, so that the stress of the material piece in the conveying process can be ensured to be uniform, the material piece is prevented from being deviated, the conveying is ensured to be smooth, and the material piece is prevented from being damaged in the conveying process.
In some embodiments, a stop block is disposed between the guide assembly and the delivery assembly. The material part conveying device has the beneficial effects that the conveying direction of the material part is further limited by the limiting block, and the material part is prevented from deviating.
In some embodiments, the number of the limiting blocks is two, the two limiting blocks are respectively located at two ends of the unpowered rubber-coated roller, and the two limiting blocks are symmetrically arranged along the feeding direction. The material part feeding device has the beneficial effects that the material part feeding direction can be ensured to be accurate by the symmetrically arranged limiting blocks, and the stress of the material part is uniform.
In some embodiments, the plurality of unpowered rollers are arranged in series in an arcuate plane. The beneficial effects are that, the cross-section that a plurality of unpowered cylinders were arranged is the arc to present ascending semiarch along material direction of transfer, direction material area that this kind of arrangement can be better, material spare is more smooth and easy when arriving conveyor components through direction subassembly, can prevent the card material, makes things convenient for material spare conveying.
Drawings
Fig. 1 is a perspective view of a wide material feeding mechanism according to an embodiment of the present invention;
FIG. 2 is a top view of the wide material feed mechanism shown in FIG. 1;
FIG. 3 is a side view of the wide material feed mechanism shown in FIG. 1;
fig. 4 is an exploded view of the wide material feeding mechanism shown in fig. 1.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Fig. 1 to 4 schematically show a wide material feeding mechanism according to an embodiment of the present invention. As shown in the drawing, the apparatus includes a support plate 100, a guide assembly 10 is disposed at a front end of the support plate 100, and a transport assembly 20 is disposed above the support plate 100. The tail end of the guide component 10 is connected with the front end of the conveying component 20, and the conveying component 20 is also provided with a material clamping component 30.
Wherein, the guide assembly 10 comprises a plurality of unpowered rollers 11, the unpowered rollers 11 are arranged in sequence, and the section of the unpowered rollers 11 is arc-shaped. The conveyor assembly 20 comprises a plurality of sequentially arranged unpowered encapsulation rollers 21, the plurality of unpowered encapsulation rollers 21 being mounted above the support plate 100 by brackets 101. The unpowered encapsulation rollers 21 are arranged in parallel along the material conveying direction to form a plane conveying channel. Because a plurality of unpowered cylinders 11 of the guide assembly 10 are sequentially arranged into an arc shape and are in an upward semi-arch shape along the material conveying direction, when materials enter the conveying assembly 20 through the guide assembly 10, the angle change of the conveying direction is stable, the conveying of the materials is natural and smooth, and the defects of material blocking and the like are not easy to occur.
Two square limiting blocks 40 are arranged between the guide component 10 and the conveying component 20, the two limiting blocks 40 are symmetrically arranged along the feeding direction, and are respectively positioned at two ends of the unpowered rubber-coated roller 21 at the starting end of the conveying component 20 and two ends of the unpowered roller 11 at the tail end of the guide component 10. Thus, when the material enters the conveying component 20 through the guide component 10, the limiting blocks 40 at the left end and the right end in the conveying direction can prevent the material from separating from the conveying channel. The two limiting blocks 40 which are symmetrically arranged enable the material part to be stressed evenly, the conveying direction can be guaranteed to be unchanged, and the material part is prevented from being damaged.
The conveying assembly 20 is provided with a material clamping assembly 30, the material clamping assembly 30 comprises two anti-skid clamps and a first air cylinder 33, and the first air cylinder 33 is arranged below the unpowered rubber coating roller 21. The two anti-slip clamps are symmetrically arranged along the two feeding directions and are respectively positioned at the two tail ends of the unpowered rubber-coated roller 21, and the two anti-slip clamps are connected with the first air cylinder 33 through the connecting plates 35. The two anti-slip clamps can simultaneously carry out reciprocating motion at a fixed interval along the material conveying direction under the driving of the first air cylinder 33. Two anti-skidding clamp symmetries set up and can guarantee that material part atress is even, prevent that the skew from taking place or derail in the material part data send process.
The anti-slip clamp comprises a first clamping head 31 and a second clamping head 32 which are arranged up and down, the first clamping head 31 is connected with a second air cylinder 34, and the first clamping head 31 can move up and down under the driving of the second air cylinder 34. The first chuck 31 and the second chuck 32 are matched with each other, so that the material to be conveyed can be fixed to a certain extent, and the conveying effect is ensured. Especially for wide materials, two ends of the materials are respectively fixed by the anti-slip clips, so that the materials can be prevented from curling, deforming or deviating in the direction in the conveying process.
The second cylinder 34 drives the first chuck 31 to move upwards, the first chuck 31 is far away from the second chuck 32, and the anti-slip clamp is opened. After the material is transferred to the anti-slip clamping position, the first clamping head 31 is driven by the second air cylinder 34 to move downwards and close to the second clamping head 32, so that the edge of the material can be fixed between the first clamping head 31 and the second clamping head 32. At this time, the first cylinder 33 drives the two symmetrical anti-slip clamps to move along the material conveying direction, and the material pieces on the conveying assembly 20 are conveyed at a fixed distance under the driving of the anti-slip clamps. When the first cylinder 33 is jacked to a fixed interval, the second cylinder 34 drives the first chuck 31 to be jacked upwards again, the anti-slip clamp is opened, and the material piece can be separated from the first chuck 31 and the second chuck 32, so that the fixed interval of the material piece is transmitted. The first cylinder 33 returns the cleat to the starting position. After the next material is conveyed to the anti-slip clamp position, the second cylinder 34 drives the first clamp 31 to move downwards again, and the material is fixed between the first clamp 31 and the second clamp 32. Then, the first cylinder 33 drives the two anti-slip clamps to move along the material conveying direction again, so that the fixed-distance conveying of the two materials is completed.
A plurality of clamping assemblies 30 can be arranged on the conveying assembly 20 along the feeding direction, and the plurality of clamping assemblies 30 are matched in a front-back mode to convey the material piece from the guide assembly 10 to the target position through multiple clamping and transferring.
What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.
Claims (7)
1. The wide material feeding mechanism is characterized by comprising a guide assembly (10) and a conveying assembly (20) which are arranged in front and back; the guide assembly (10) comprises a plurality of unpowered rollers (11) which are arranged in sequence; the conveyor assembly (20) comprises a plurality of unpowered encapsulation rollers (21) arranged in sequence;
the conveying assembly (20) is also provided with a material clamping assembly (30); the material clamping assembly (30) can move back and forth along the material conveying direction.
2. The wide material feeding mechanism according to claim 1, wherein the material clamping assembly (30) comprises a non-slip clamp and a first air cylinder (33), the non-slip clamp is arranged at the tail end of the unpowered encapsulation roller (21); the anti-slip clamp is connected with a first air cylinder (33), and the first air cylinder (33) can move along the material conveying direction.
3. The wide material feeding mechanism according to claim 2, wherein the anti-slip clamp comprises a first clamping head (31) and a second clamping head (32) which are arranged up and down; the first chuck (31) is connected with a second cylinder (34), and the first chuck (31) can move up and down along with the second cylinder (34).
4. A wide material feeding mechanism as claimed in claim 3, wherein the plurality of clips are provided symmetrically in the feeding direction.
5. A wide material feeding mechanism according to claim 1, wherein a stopper (40) is provided between the guide member (10) and the transport member (20).
6. The wide material feeding mechanism according to claim 5, wherein the number of the limiting blocks (40) is two, the two limiting blocks (40) are respectively located at two ends of the unpowered encapsulation roller (21), and the two limiting blocks (40) are symmetrically arranged along the feeding direction.
7. The wide material feeding mechanism according to any one of claims 1 to 6, wherein a plurality of the unpowered rollers (11) are arranged in an arc-shaped plane in sequence.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202020538021.XU CN212374168U (en) | 2020-04-13 | 2020-04-13 | Wide material feeding mechanism |
Applications Claiming Priority (1)
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CN202020538021.XU CN212374168U (en) | 2020-04-13 | 2020-04-13 | Wide material feeding mechanism |
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CN212374168U true CN212374168U (en) | 2021-01-19 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113769659A (en) * | 2021-09-15 | 2021-12-10 | 青岛创客智造机械设备有限公司 | Automatic unpowered glue making transportation line |
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2020
- 2020-04-13 CN CN202020538021.XU patent/CN212374168U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113769659A (en) * | 2021-09-15 | 2021-12-10 | 青岛创客智造机械设备有限公司 | Automatic unpowered glue making transportation line |
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